[go: up one dir, main page]

WO2018105855A1 - Iot system for posture control and correction using fpcb-based pressure sensor - Google Patents

Iot system for posture control and correction using fpcb-based pressure sensor Download PDF

Info

Publication number
WO2018105855A1
WO2018105855A1 PCT/KR2017/009315 KR2017009315W WO2018105855A1 WO 2018105855 A1 WO2018105855 A1 WO 2018105855A1 KR 2017009315 W KR2017009315 W KR 2017009315W WO 2018105855 A1 WO2018105855 A1 WO 2018105855A1
Authority
WO
WIPO (PCT)
Prior art keywords
posture
user
correction
fpcb
pressure sensor
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/KR2017/009315
Other languages
French (fr)
Korean (ko)
Inventor
λ°±μ›…μš©
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of WO2018105855A1 publication Critical patent/WO2018105855A1/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/01Protocols
    • H04L67/12Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B3/00Footwear characterised by the shape or the use
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B3/00Footwear characterised by the shape or the use
    • A43B3/34Footwear characterised by the shape or the use with electrical or electronic arrangements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/80Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication

Definitions

  • the present invention relates to an Internet of Things (IoT) system for attitude control and correction, and more particularly, to an IoT system for attitude control and correction using a flexible printed circuit board (FPCB) based pressure sensor.
  • IoT Internet of Things
  • FPCB flexible printed circuit board
  • Representative functional shoes of the conventional posture correction products are made to the user's initial foot shape, so that the user can comfortably wear, but if the walking posture is incorrect, the reality is useless. In other words, modern people are driven by busy daily life despite poor walking posture or bad walking habits, but they can be easily corrected if they are found early. Caused by. There is an urgent need for a method of providing correct posture correction information to a user in order to prevent a disease that may occur due to a user's walking habit or a walking posture.
  • the present invention has been proposed to solve the above problems of the conventionally proposed methods, and includes a user smart device equipped with a pressure sensor, a control module, a wireless communication module, a battery, and an attitude correction app in the form of an FPCB, A plurality of FPCB-type pressure sensors are distributed and placed on the insole of the shoe, and the pressure data values for posture correction are measured by using the pressure detected by the plurality of pressure sensors in the control module.
  • the device By configuring the device to provide the user with posture correction information using pressure data values, the user can maintain and manage a healthy body through posture correction by providing real-time monitoring and notification of poor pedestrian and upright posture.
  • IoT system for attitude control and calibration using FPCB-based pressure sensor Its purpose is to provide.
  • the present invention by configuring the FPCB-type pressure sensor and control module, the wireless communication module and the battery installed in the insole of the shoe, it is possible to prevent damage and compact configuration of the product during commercialization, lithium ion battery and micro Posture control and correction using FPCB-based pressure sensor that maximizes the convenience of use and improves the convenience of battery charging through the combination of USB charging terminal and rubber cap and enables waterproof function when battery is not charged.
  • Another object is to provide an IoT system.
  • the present invention by configuring a wireless communication module, but configured to enable Bluetooth communication and NFC communication, the user of a smart phone that is good at setting up Bluetooth pairing, as well as the user of a smart phone that is difficult to set up Bluetooth pairing It is another object of the present invention to provide an IoT system for posture control and correction using an FPCB-based pressure sensor that can be used by everyone.
  • a plurality of pressure sensors disposed in the insole of shoes worn by the user and detecting pressure exerted by the user's foot during walking or jogging of the user;
  • a control module for measuring a pressure data value for posture correction using the pressures detected from the plurality of pressure sensors
  • a wireless communication module for providing a pressure data value for the posture correction via a wireless local area communication method
  • Equipped with a posture correction app for real-time monitoring of the user's walking posture and upright posture comprising a user smart device that provides the user posture correction information based on the pressure data value provided through the wireless communication module Features of the jacket.
  • the plurality of pressure sensors are arranged so that the plurality of pressure sensors,
  • the pressure data value is,
  • It may include the position, order, and intensity pressed by the user's foot using the pressures detected from the plurality of pressure sensors.
  • the wireless communication module More preferably, the wireless communication module,
  • It may be configured to include a Bluetooth module for performing Bluetooth communication with the user smart device.
  • the wireless communication module is configured to:
  • the battery Even more preferably, the battery,
  • the micro USB charging terminal may be fastened with a rubber cap for waterproof.
  • the user smart device Even more preferably, the user smart device,
  • the bad pedestrian and upright posture of the user may be determined based on the position, the order, and the intensity pressed by the user's foot included in the pressure data value provided through the wireless communication module.
  • posture correction information corresponding thereto may be provided on a display screen or an alarm.
  • the user smart device Even more preferably, the user smart device,
  • the posture correction app Through the execution of the posture correction app, the user's walking speed according to the frequency of reception of the pressure data value is analyzed, and the walking posture of the user according to the position pressed by the foot included in the pressure data value, and the order and intensity. Can be analyzed.
  • a user smart device equipped with an FPCB-type pressure sensor, a control module, a wireless communication module, a battery, and a posture correction app are included.
  • the plurality of FPCB-type pressure sensors are distributed and placed on the insole of the shoe, using the pressure detected by the plurality of pressure sensors in the control module to measure the pressure data value for posture correction, the posture correction app is equipped with
  • the user's smart device to provide the user with posture correction information using pressure data values, the user maintains and manages a healthy body through posture correction by providing real-time monitoring and notification of poor pedestrian and upright posture. You can do it.
  • the FPCB-type pressure sensor and control module by configuring the FPCB-type pressure sensor and control module, the wireless communication module and the battery installed in the insole of the shoe, it is possible to prevent damage and compact configuration of the product at the time of commercialization, lithium ion battery and The micro USB charging terminal and the rubber cap can be combined to improve the convenience of battery charging and maximize the convenience of use, and to realize the waterproof function when the battery is not charged.
  • the present invention by configuring a wireless communication module, but configured to enable Bluetooth communication and NFC communication, the user of a smart phone that is good at setting up Bluetooth pairing, as well as the user of a smart phone that is difficult to set up Bluetooth pairing It can be used by everyone.
  • FIG. 1 is a block diagram showing the overall configuration of the IoT system for attitude control and correction using the FPCB-based pressure sensor in accordance with an embodiment of the present invention.
  • FIG. 2 is a diagram illustrating a configuration of a wireless communication module applied to an IoT system for posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention.
  • FIG 3 is a view showing a battery configuration applied to the IoT system for attitude control and correction using the FPCB-based pressure sensor according to an embodiment of the present invention.
  • FIG. 4 is a diagram illustrating Bluetooth communication between a shoe and a user smart device to which an IoT system for posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention is applied.
  • FIG. 5 is a diagram illustrating NFC communication between a shoe and a user smart device to which an IoT system for posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention is applied.
  • Figure 6 is a view showing the heel portion of the shoe to which the IoT system for the posture control and correction using the FPCB-based pressure sensor according to an embodiment of the present invention.
  • control module MCU
  • FIG. 1 is a view showing the overall configuration of the IoT system for the attitude control and correction using the FPCB-based pressure sensor according to an embodiment of the present invention as a functional block
  • Figure 2 is an FPCB-based according to an embodiment of the present invention
  • FIG. 3 is a diagram illustrating a configuration of a wireless communication module applied to an IoT system regarding posture control and correction using a pressure sensor of FIG. 3, and
  • FIG. 3 illustrates an IoT regarding posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention.
  • the IoT system 100 for attitude control and correction using the FPCB-based pressure sensor may be configured to include a user smart device 160.
  • the plurality of pressure sensors 110 are distributed in the insole 11 of the shoe 10 worn by the user, and are configured to detect a pressure applied by the foot of the user when the user walks or jogs.
  • Each of the plurality of pressure sensors 110 may be configured as a pressure sensor in the form of a flexible printed circuit board (FPCB).
  • the plurality of pressure sensors 110 implemented as a pressure sensor of the FPCB type is a configuration that can be installed in the insole 11 of the shoe 10, that is, the thickness of the shoe insole (10 ⁇ 20mm), the thickness It is free from constraints and can be implemented with simplification of the product.
  • the control module 120 is a configuration of a control for measuring a pressure data value for posture correction using the pressures detected from the plurality of pressure sensors 110.
  • the pressure data value processed by the control module 120 may include a position, an order, and an intensity pressed by a user's foot using pressures detected from the plurality of pressure sensors 110.
  • the control module 120 is electrically connected and connected to the plurality of pressure sensors 110, may be implemented in a separate PCB block, or may be implemented on the FPCB, such as a plurality of pressure sensors 110.
  • the wireless communication module 130 is a configuration of a module for wireless communication, which provides a pressure data value for posture correction through a wireless local area communication method under the control of the control module 120.
  • the wireless communication module 130 may include a Bluetooth module 131 which performs Bluetooth communication with the user smart device 160 which will be described later through Bluetooth pairing.
  • the wireless communication module 130 may further include an NFC module 132 that performs Near Field Communication (NFC) communication with the user smart device 160.
  • NFC Near Field Communication
  • the NFC module 132 is for the convenience of adults using a mobile phone difficult to pair Bluetooth
  • the posture correction app 150 is mounted on the user smart device 160, that is, the user carries a shoe Only the operation of approaching the cover side of 10 allows the transmission of pressure data values for posture correction.
  • the battery 140 is a configuration of a power supply for supplying power for driving the plurality of pressure sensors 110, the control module 120, and the wireless communication module 130.
  • the battery 140 includes a lithium ion battery that can be charged through the micro USB charging terminal 141 exposed to the outside through the heel portion of the shoe 10.
  • the micro USB charging terminal 141 may have a structure in which a rubber cap 142 for waterproofing is fastened.
  • the battery 140 serves to increase the use time through the lithium ion battery, to enable convenient charging through the micro USB charging terminal 141, rubber cap (opening and closing can be selectively selected by the user ( 142) ensures a confidential waterproof function when not charging.
  • the user smart device 160 includes a posture correction app 150 for real-time monitoring of a user's walking posture and upright posture, and correcting a posture of a user based on a pressure data value provided through the wireless communication module 130. It is a configuration of a smart phone carried by a user who provides information. The user smart device 160 is based on the position, order, and intensity pressed by the user's foot included in the pressure data value provided through the wireless communication module 130 through the execution of the posture correcting app 150. The bad pedestrian and upright posture of the user may be determined, and posture correction information corresponding thereto may be provided as a display screen or an alarm.
  • the user smart device 160 monitors the poor pedestrian posture and the upright posture of the user, and if the corresponding pedestrian posture or the upright posture is poor, a notification about the prompt is immediately provided as an alarm to correct the walking posture of the user. You can do that.
  • the posture correction information may be provided through the display screen so that the walking posture of the user may be corrected through the display screen.
  • the posture correction information provided through the display screen may provide a difference between pressure intensities applied to the left foot and the right foot of the user.
  • the user smart device 160 analyzes the walking speed of the user according to the frequency of receiving the pressure data value through the execution of the posture correcting app 150, and the position pressed by the foot included in the pressure data value,
  • the walking posture of the user may be analyzed and processed according to the order and intensity.
  • FIG. 4 is a diagram illustrating Bluetooth communication between a shoe and a user smart device to which an IoT system for posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention is applied
  • FIG. 5 is an embodiment of the present invention.
  • FIG. 2 is a diagram illustrating NFC communication between a shoe and an user smart device to which an IoT system for posture control and correction using an FPCB-based pressure sensor is applied.
  • 4 illustrates an example of setting Bluetooth pairing, that is, a user who is familiar with using a smartphone to perform Bluetooth communication.
  • FIG. 5 shows related information, that is, pressure data values for posture correction, by simply approaching the user smart device 160 toward the cover of the shoe 10 in order to use Ntag NFC communication for those who have difficulty setting up Bluetooth pairing.
  • An example of performing NFC communication provided to the user smart device 160 is shown.
  • FIG. 6 is a diagram illustrating a heel portion of a shoe to which an IoT system for posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention is applied. 6 illustrates a pressure sensor 110, a control module 120, a wireless communication module 130, and a battery 140 in the insole 11 of the shoe 10 of the IoT system 100 of the present invention.
  • the micro USB charging terminal 141 is disposed in a form in which the micro USB charging terminal 141 is exposed to the heel of the shoe 10, and the micro USB charging terminal 141 is exposed by opening and closing the rubber gap 142.
  • the micro USB charging terminal 141 provides a sealed waterproof function when sealed by the rubber gap 142, and when the rubber gap 142 is opened and closed with a lithium ion battery through the micro USB charging terminal 141. It is possible to charge the battery 140 is configured.
  • the IoT system for attitude control and correction using the FPCB-based pressure sensor the plurality of FPCB-type pressure sensors are distributed in the insole of the shoe, a plurality of control modules By measuring the pressure data value for posture correction by using the pressure detected by the pressure sensor, by configuring the user smart device equipped with the posture correction app to provide the user with posture correction information using the pressure data value, By providing real-time monitoring and notification of poor pedestrian and upright postures, the user can maintain and manage a healthy body through posture correction.
  • FPCB-type pressure sensor, control module and wireless communication module are also provided in the shoe insole.
  • the battery to be installed, thereby preventing damage to the product during the commercialization and compact configuration Performance and maximize ease of use with the improved convenience of the battery charge through the fastening structure of the lithium ion battery and a micro-USB charging terminal and the rubber cap, and the water resistance of the battery unfilled it is possible to to be implemented.
  • a wireless communication module capable of Bluetooth communication and NFC communication both users of smartphones that are good at setting up Bluetooth pairing, regardless of age and gender, as well as users of smartphones who are not good at setting up Bluetooth pairing are convenient. So that you can use it.

Landscapes

  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Health & Medical Sciences (AREA)
  • Computing Systems (AREA)
  • General Health & Medical Sciences (AREA)
  • Medical Informatics (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)

Abstract

The present invention proposes an IoT system for posture control and correction using an FPCB-based pressure sensor, the system comprising an FPCB type pressure sensor, a control module, a wireless communication module, a battery, and a user smart device loaded with a posture correction app, wherein a plurality of FPCB type pressure sensors are arranged in the insoles of shoes in a distributed manner, the control module measures pressure data values for posture correction by using pressure detected by each of the plurality of pressure sensors, and the user smart device loaded with the posture correction app provides a user with posture correction information using the pressure data values. Therefore, the present invention can monitor a user's poor walking posture and upright standing posture and notify the user of the same in real time, thereby enabling the user to keep his/her body healthy and manage his/her health through posture correction.

Description

FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IOT μ‹œμŠ€ν…œIOT system for posture control and correction using FPCB based pressure sensor

λ³Έ 발λͺ…은 μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT(Internet of Things) μ‹œμŠ€ν…œμ— κ΄€ν•œ κ²ƒμœΌλ‘œμ„œ, 보닀 κ΅¬μ²΄μ μœΌλ‘œλŠ” FPCB(Flexible Printed Circuit Board) 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ— κ΄€ν•œ 것이닀.The present invention relates to an Internet of Things (IoT) system for attitude control and correction, and more particularly, to an IoT system for attitude control and correction using a flexible printed circuit board (FPCB) based pressure sensor.

ν˜„λŒ€μ‚¬νšŒμ—μ„œλŠ” μ—…λ¬΄μ˜ 과쀑에 λ”°λ₯Έ μΌν•˜λŠ” μžμ„Έ 및 슀마트폰 λ³΄κΈ‰μœΌλ‘œ μΈν•œ λͺΈμ˜ λΆˆκ· ν˜•μ΄ 생기고 μžˆλ‹€. 즉, λΆˆλŸ‰ν•œ μžμ„Έλ₯Ό μœ μ§€ν•˜λŠ” μž₯μ‹œκ°„μ˜ κ·Όλ¬΄λ‚˜, λ˜λŠ” 슀마트폰의 μž₯μ‹œκ°„μ˜ μ‚¬μš©μ€ μ‚¬μš©μžλ“€μ˜ μžμ„Έμ— λ§Žμ€ μ•…μ˜ν–₯을 미치고 μžˆλ‹€. 단적인 예둜, μžμ„Έμ˜ λΆˆμ•ˆμ • 및 κ΅¬λΆ€μ •ν•œ μžμ„Έλ‘œ μΈν•΄μ„œ λ¬΄λ¦ŽλΆ€ν„° ν—ˆλ¦¬, 골반, μ²™μΆ” 등이 λͺ¨λ‘ μ•ˆ μ’‹μ•„μ§ˆ 수 있게 λœλ‹€. 이에 λ§Žμ€ μ‚¬λžŒλ“€μ΄ λΆˆλŸ‰ν•œ μžμ„Έλ‘œ μΈν•œ ν—ˆλ¦¬ν†΅μ¦, μ–΄κΉ¨, 무릎 λ“±μ˜ 톡증을 ν•΄μ†Œν•˜κΈ° μœ„ν•΄ λ³‘μ›μ—μ„œ 약을 μ²˜λ°©λ°›μ•„ μ‚¬μš©ν•˜κ³  μžˆλ‹€. μ΄λŠ” 근본적인 해결이 λ˜μ§€ λͺ»ν•˜κ³  있으며, μ˜λ£ŒλΉ„ λΆ€λ‹΄κ³Ό ν•¨κ»˜ μ•½λ¬Ό λ‚¨μš©μ„ μ΄ˆλž˜ν•˜λŠ” 문제λ₯Ό μ•ΌκΈ°ν•˜κ³  μžˆλ‹€. 이에 λ§Žμ€ μ‚¬μš©μžλ“€μ΄ μš΄λ™μ„ 톡해 μžμ„Έλ₯Ό λ³΄μ •ν•˜κ³  있으며, 기쑴에 λ‚˜μ™€ μžˆλŠ” μžμ„Έ ꡐ정을 μœ„ν•œ μ œν’ˆμΈ κΈ°λŠ₯μ„± μ‹ λ°œμ„ μ• μš©ν•˜κ³  μžˆλ‹€.In the modern society, there is an imbalance in the body due to the work posture and the spread of smart phones due to the heavy work load. That is, a long time of working to maintain a bad posture, or a long time use of a smartphone has a lot of adverse effects on the posture of the user. For example, postural instability and curvature poses may result in poor knees, back, pelvis, and spine. Many people are prescribed drugs in the hospital to relieve pain, such as back pain, shoulders, knees caused by poor posture. This is not a fundamental solution and causes a problem of drug abuse and drug abuse. Many users are correcting their posture through exercise, and they are using functional shoes that are products for correcting posture.

기쑴에 λ‚˜μ™€ μžˆλŠ” μžμ„Έκ΅μ • μ œν’ˆμ˜ λŒ€ν‘œμ μΈ κΈ°λŠ₯μ„± μ‹ λ°œμ€, μ‚¬μš©μžμ˜ 초기 발 λͺ¨μ–‘ κ·ΈλŒ€λ‘œ λ§Œλ“€μ–΄μ„œ μ‚¬μš©μžκ°€ νŽΈμ•ˆν•˜κ²Œ 신을 수 μžˆλ„λ‘ ν•˜κ³  μžˆμœΌλ‚˜, λ³΄ν–‰ν•˜λŠ” μžμ„Έκ°€ μ˜¬λ°”λ₯΄μ§€ μ•ŠμœΌλ©΄ λ¬΄μš©μ§€λ¬ΌμΈ 것이 ν˜„μ‹€μ΄λ‹€. 즉, ν˜„λŒ€μΈλ“€μ€ κ±·λŠ” μžμ„Έλ‚˜ κ±·λŠ” μŠ΅κ΄€μ΄ λ‚˜μ¨μ—λ„ λΆˆκ΅¬ν•˜κ³  λ°”μœ 일상에 쫓겨 μ΄ˆκΈ°μ— λ°œκ²¬ν•˜λ©΄ μ‰½κ²Œ κ³ μΉ  수 μžˆμŒμ—λ„ λΆˆκ΅¬ν•˜κ³  μ§€μ†μ μœΌλ‘œ λ°©μΉ˜ν•¨μœΌλ‘œμ¨, λ‚˜μœ 보행 μžμ„Έκ°€ μž₯μ‹œκ°„ μŠ΅κ΄€μœΌλ‘œ ꡳ어지고, μ΄λŠ” 결ꡭ에 μ‚¬μš©μžμ˜ μ§ˆν™˜ 유발의 원인이 되고 μžˆλ‹€. μ‚¬μš©μžμ˜ κ±·λŠ” μŠ΅κ΄€μ΄λ‚˜ κ±·λŠ” μžμ„Έλ‘œ 인해 λ°œμƒλ  수 μžˆλŠ” μ§ˆν™˜μ„ 사전에 λ°©μ§€ν•˜κΈ° μœ„ν•΄ μ‚¬μš©μžμ—κ²Œ μ˜¬λ°”λ₯Έ μžμ„Έ ꡐ정 정보λ₯Ό μ œκ³΅ν•˜λŠ” λ°©μ•ˆμ΄ μ ˆμ‹€νžˆ μš”κ΅¬λ˜κ³  μžˆλ‹€.Representative functional shoes of the conventional posture correction products are made to the user's initial foot shape, so that the user can comfortably wear, but if the walking posture is incorrect, the reality is useless. In other words, modern people are driven by busy daily life despite poor walking posture or bad walking habits, but they can be easily corrected if they are found early. Caused by. There is an urgent need for a method of providing correct posture correction information to a user in order to prevent a disease that may occur due to a user's walking habit or a walking posture.

λ³Έ 발λͺ…은 기쑴에 μ œμ•ˆλœ λ°©λ²•λ“€μ˜ 상기와 같은 λ¬Έμ œμ λ“€μ„ ν•΄κ²°ν•˜κΈ° μœ„ν•΄ μ œμ•ˆλœ κ²ƒμœΌλ‘œμ„œ, FPCB ν˜•νƒœμ˜ μ••λ ₯μ„Όμ„œ, μ œμ–΄ λͺ¨λ“ˆ, 무선톡신 λͺ¨λ“ˆ, 배터리, 및 μžμ„Έ ꡐ정 앱이 νƒ‘μž¬λœ μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€λ₯Ό ν¬ν•¨ν•˜λ˜, FPCB ν˜•νƒœμ˜ 볡수의 μ••λ ₯μ„Όμ„œλ₯Ό μ‹ λ°œμ˜ 깔창에 λΆ„μ‚° λ°°μΉ˜ν•˜κ³ , μ œμ–΄ λͺ¨λ“ˆμ—μ„œ 볡수의 μ••λ ₯μ„Όμ„œλ₯Ό 톡해 κ²€μΆœλ˜λŠ” μ••λ ₯을 μ΄μš©ν•˜μ—¬ μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 값을 μΈ‘μ •ν•˜λ©°, μžμ„Έ ꡐ정 앱이 νƒ‘μž¬λœ μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€μ—μ„œ μ••λ ₯ 데이터 값을 μ΄μš©ν•œ μžμ„Έ ꡐ정 정보λ₯Ό μ‚¬μš©μžμ—κ²Œ μ œκ³΅ν•  수 μžˆλ„λ‘ κ΅¬μ„±ν•¨μœΌλ‘œμ¨, μ‚¬μš©μžμ˜ λΆˆλŸ‰ν•œ λ³΄ν–‰μžμ„Έ 및 μ§λ¦½μžμ„Έμ˜ μ‹€μ‹œκ°„ λͺ¨λ‹ˆν„°λ§ 및 μ•Œλ¦Ό μ œκ³΅μ„ 톡해 μ‚¬μš©μžκ°€ μžμ„Έκ΅μ •μ„ ν†΅ν•œ κ±΄κ°•ν•œ λͺΈμ„ μœ μ§€ν•˜κ³  관리할 수 μžˆλ„λ‘ ν•˜λŠ”, FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ„ μ œκ³΅ν•˜λŠ” 것을 κ·Έ λͺ©μ μœΌλ‘œ ν•œλ‹€.The present invention has been proposed to solve the above problems of the conventionally proposed methods, and includes a user smart device equipped with a pressure sensor, a control module, a wireless communication module, a battery, and an attitude correction app in the form of an FPCB, A plurality of FPCB-type pressure sensors are distributed and placed on the insole of the shoe, and the pressure data values for posture correction are measured by using the pressure detected by the plurality of pressure sensors in the control module. By configuring the device to provide the user with posture correction information using pressure data values, the user can maintain and manage a healthy body through posture correction by providing real-time monitoring and notification of poor pedestrian and upright posture. IoT system for attitude control and calibration using FPCB-based pressure sensor Its purpose is to provide.

λ˜ν•œ, λ³Έ 발λͺ…은, μ‹ λ°œμ˜ κΉ”μ°½ 내에 FPCB ν˜•νƒœμ˜ μ••λ ₯μ„Όμ„œμ™€ μ œμ–΄ λͺ¨λ“ˆκ³Ό 무선톡신 λͺ¨λ“ˆ 및 배터리가 μ„€μΉ˜λ˜λ„λ‘ κ΅¬μ„±ν•¨μœΌλ‘œμ¨, μƒμš©ν™”μ‹œμ˜ μ œν’ˆμ˜ νŒŒμ† 방지 및 μ½€νŒ©νŠΈν•œ ꡬ성이 κ°€λŠ₯ν•˜κ³ , 리튬이온 배터리와 마이크둜 USB μΆ©μ „λ‹¨μžμ™€ 고무 캑의 체결 ꡬ성을 ν†΅ν•œ 배터리 μΆ©μ „μ˜ νŽΈμ˜μ„± ν–₯상과 ν•¨κ»˜ μ‚¬μš©μ˜ νŽΈμ˜μ„±μ„ κ·ΉλŒ€ν™”ν•˜κ³ , 배터리 λ―Έ μΆ©μ „μ‹œμ˜ 방수 κΈ°λŠ₯이 κ΅¬ν˜„λ  수 μžˆλ„λ‘ ν•˜λŠ”, FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ„ μ œκ³΅ν•˜λŠ” 것을 또 λ‹€λ₯Έ λͺ©μ μœΌλ‘œ ν•œλ‹€.In addition, the present invention, by configuring the FPCB-type pressure sensor and control module, the wireless communication module and the battery installed in the insole of the shoe, it is possible to prevent damage and compact configuration of the product during commercialization, lithium ion battery and micro Posture control and correction using FPCB-based pressure sensor that maximizes the convenience of use and improves the convenience of battery charging through the combination of USB charging terminal and rubber cap and enables waterproof function when battery is not charged. Another object is to provide an IoT system.

뿐만 μ•„λ‹ˆλΌ, λ³Έ 발λͺ…은, 무선톡신 λͺ¨λ“ˆμ„ κ΅¬μ„±ν•˜λ˜, λΈ”λ£¨νˆ¬μŠ€ 톡신 및 NFC 톡신이 κ°€λŠ₯ν•˜λ„λ‘ κ΅¬μ„±ν•¨μœΌλ‘œμ¨, λΈ”λ£¨νˆ¬μŠ€ νŽ˜μ–΄λ§μ˜ 섀정이 λŠ₯μˆ™ν•œ 슀마트폰의 μ‚¬μš©μžλŠ” λ¬Όλ‘ , λΈ”λ£¨νˆ¬μŠ€ νŽ˜μ–΄λ§ 섀정이 μ–΄λ €μš΄ λŠ₯μˆ™ν•˜μ§€ μ•Šμ€ 슀마트폰의 μ‚¬μš©μž λͺ¨λ‘κ°€ νŽΈλ¦¬ν•˜κ²Œ μ‚¬μš©ν•  수 μžˆλ„λ‘ ν•˜λŠ”, FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ„ μ œκ³΅ν•˜λŠ” 것을 또 λ‹€λ₯Έ λͺ©μ μœΌλ‘œ ν•œλ‹€.In addition, the present invention, by configuring a wireless communication module, but configured to enable Bluetooth communication and NFC communication, the user of a smart phone that is good at setting up Bluetooth pairing, as well as the user of a smart phone that is difficult to set up Bluetooth pairing It is another object of the present invention to provide an IoT system for posture control and correction using an FPCB-based pressure sensor that can be used by everyone.

μƒκΈ°ν•œ λͺ©μ μ„ λ‹¬μ„±ν•˜κΈ° μœ„ν•œ λ³Έ 발λͺ…μ˜ νŠΉμ§•μ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ€,IoT system for attitude control and correction using the FPCB-based pressure sensor according to the characteristics of the present invention for achieving the above object,

FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμœΌλ‘œμ„œ,IoT system for attitude control and correction using FPCB based pressure sensor,

μ‚¬μš©μžκ°€ μ‹ λŠ” μ‹ λ°œμ˜ κΉ”μ°½ 내에 λΆ„μ‚° 배치되며, μ‚¬μš©μžμ˜ 보행 λ˜λŠ” μ‘°κΉ… μ‹œμ— μ‚¬μš©μžμ˜ λ°œμ— μ˜ν•΄ κ°€ν•΄μ§€λŠ” μ••λ ₯을 κ²€μΆœν•˜λŠ” 볡수의 μ••λ ₯μ„Όμ„œ;A plurality of pressure sensors disposed in the insole of shoes worn by the user and detecting pressure exerted by the user's foot during walking or jogging of the user;

상기 볡수의 μ••λ ₯μ„Όμ„œλ‘œλΆ€ν„° κ²€μΆœλ˜λŠ” μ••λ ₯듀을 μ΄μš©ν•˜μ—¬ μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 값을 μΈ‘μ •ν•˜λŠ” μ œμ–΄ λͺ¨λ“ˆ;A control module for measuring a pressure data value for posture correction using the pressures detected from the plurality of pressure sensors;

상기 μ œμ–΄ λͺ¨λ“ˆμ˜ μ œμ–΄ ν•˜μ—, 상기 μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 값을 무선 근거리 톡신 방식을 톡해 μ œκ³΅ν•˜λŠ” 무선톡신 λͺ¨λ“ˆ;Under the control of the control module, a wireless communication module for providing a pressure data value for the posture correction via a wireless local area communication method;

상기 볡수의 μ••λ ₯μ„Όμ„œμ™€ μ œμ–΄ λͺ¨λ“ˆ 및 무선톡신 λͺ¨λ“ˆμ˜ ꡬ동을 μœ„ν•œ 전원을 κ³΅κΈ‰ν•˜λŠ” 배터리; 및A battery for supplying power for driving the plurality of pressure sensors, the control module and the wireless communication module; And

μ‚¬μš©μžμ˜ 보행 μžμ„Έ 및 직립 μžμ„Έλ₯Ό μ‹€μ‹œκ°„ λͺ¨λ‹ˆν„°λ§ ν•˜κΈ° μœ„ν•œ μžμ„Έ ꡐ정 앱을 νƒ‘μž¬ν•˜λ©°, 상기 무선톡신 λͺ¨λ“ˆμ„ 톡해 μ œκ³΅λ˜λŠ” μ••λ ₯ 데이터 값에 κΈ°μ΄ˆν•˜μ—¬ μ‚¬μš©μžμ˜ μžμ„Έ ꡐ정 정보λ₯Ό μ œκ³΅ν•˜λŠ” μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€λ₯Ό ν¬ν•¨ν•˜λŠ” 것을 κ·Έ κ΅¬μ„±μƒμ˜ νŠΉμ§•μœΌλ‘œ ν•œλ‹€.Equipped with a posture correction app for real-time monitoring of the user's walking posture and upright posture, comprising a user smart device that provides the user posture correction information based on the pressure data value provided through the wireless communication module Features of the jacket.

λ°”λžŒμ§ν•˜κ²ŒλŠ”, 상기 볡수의 μ••λ ₯μ„Όμ„œλŠ”,Preferably, the plurality of pressure sensors,

각각이 FPCB ν˜•νƒœμ˜ μ••λ ₯μ„Όμ„œλ‘œ ꡬ성될 수 μžˆλ‹€.Each can be composed of a pressure sensor of the FPCB type.

λ°”λžŒμ§ν•˜κ²ŒλŠ”, 상기 μ••λ ₯ 데이터 값은,Preferably, the pressure data value is,

상기 볡수의 μ••λ ₯μ„Όμ„œλ‘œλΆ€ν„° κ²€μΆœλ˜λŠ” μ••λ ₯듀을 μ΄μš©ν•œ μ‚¬μš©μžμ˜ λ°œμ— μ˜ν•΄ λˆŒλ¦¬λŠ” μœ„μΉ˜μ™€, μˆœμ„œ, 및 강도λ₯Ό 포함할 수 μžˆλ‹€.It may include the position, order, and intensity pressed by the user's foot using the pressures detected from the plurality of pressure sensors.

λ”μš± λ°”λžŒμ§ν•˜κ²ŒλŠ”, 상기 무선톡신 λͺ¨λ“ˆμ€,More preferably, the wireless communication module,

상기 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€μ™€ λΈ”λ£¨νˆ¬μŠ€ 톡신을 μˆ˜ν–‰ν•˜λŠ” λΈ”λ£¨νˆ¬μŠ€ λͺ¨λ“ˆμ„ ν¬ν•¨ν•˜μ—¬ ꡬ성할 수 μžˆλ‹€.It may be configured to include a Bluetooth module for performing Bluetooth communication with the user smart device.

λ”μš± 더 λ°”λžŒμ§ν•˜κ²ŒλŠ”, 상기 무선톡신 λͺ¨λ“ˆμ€,Still more preferably, the wireless communication module,

상기 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€μ™€ NFC 톡신을 μˆ˜ν–‰ν•˜λŠ” NFC λͺ¨λ“ˆμ„ 더 ν¬ν•¨ν•˜μ—¬ ꡬ성할 수 μžˆλ‹€.It may be configured to further include an NFC module for performing NFC communication with the user smart device.

λ”μš± 더 λ°”λžŒμ§ν•˜κ²ŒλŠ”, 상기 λ°°ν„°λ¦¬λŠ”,Even more preferably, the battery,

μ‹ λ°œμ˜ λ’€μΆ• 뢀뢄을 톡해 μ™ΈλΆ€λ‘œ λ…ΈμΆœλ˜λŠ” 마이크둜 USB μΆ©μ „λ‹¨μžλ₯Ό 톡해 좩전이 κ°€λŠ₯ν•œ 리튬이온 λ°°ν„°λ¦¬λ‘œ κ΅¬μ„±λ˜κ³ , 상기 마이크둜 USB μΆ©μ „λ‹¨μžλŠ” 방수λ₯Ό μœ„ν•œ 고무 캑이 체결될 수 μžˆλ‹€.Consists of a lithium ion battery that can be charged through the micro USB charging terminal exposed to the outside through the heel portion of the shoe, the micro USB charging terminal may be fastened with a rubber cap for waterproof.

λ”μš± 더 λ°”λžŒμ§ν•˜κ²ŒλŠ”, 상기 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€λŠ”,Even more preferably, the user smart device,

상기 μžμ„Έ ꡐ정 μ•±μ˜ 싀행을 톡해, 상기 무선톡신 λͺ¨λ“ˆμ„ 톡해 μ œκ³΅λ˜λŠ” μ••λ ₯ 데이터 값에 ν¬ν•¨λœ μ‚¬μš©μžμ˜ λ°œμ— μ˜ν•΄ λˆŒλ¦¬λŠ” μœ„μΉ˜μ™€, μˆœμ„œ, 및 강도에 κΈ°μ΄ˆν•˜μ—¬ μ‚¬μš©μžμ˜ λΆˆλŸ‰ν•œ λ³΄ν–‰μžμ„Έ 및 μ§λ¦½μžμ„Έλ₯Ό νŒλ‹¨ν•˜κ³ , 그에 λŒ€μ‘ν•œ μžμ„Έ ꡐ정 정보λ₯Ό λ””μŠ€ν”Œλ ˆμ΄ ν™”λ©΄ λ˜λŠ” μ•ŒλžŒμœΌλ‘œ μ œκ³΅ν•  수 μžˆλ‹€.Through the execution of the posture correcting app, the bad pedestrian and upright posture of the user may be determined based on the position, the order, and the intensity pressed by the user's foot included in the pressure data value provided through the wireless communication module. In addition, posture correction information corresponding thereto may be provided on a display screen or an alarm.

λ”λ”μš± λ°”λžŒμ§ν•˜κ²ŒλŠ”, 상기 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€λŠ”,Even more preferably, the user smart device,

상기 μžμ„Έ ꡐ정 μ•±μ˜ 싀행을 톡해, 상기 μ••λ ₯ 데이터 κ°’μ˜ μˆ˜μ‹  λΉˆλ„μ— λ”°λ₯Έ μ‚¬μš©μžμ˜ κ±·λŠ” 속도λ₯Ό 뢄석 μ²˜λ¦¬ν•˜κ³ , 상기 μ••λ ₯ 데이터 값에 ν¬ν•¨λœ λ°œμ— μ˜ν•΄ λˆŒλ¦¬λŠ” μœ„μΉ˜μ™€, μˆœμ„œ 및 세기에 따라 μ‚¬μš©μžμ˜ 보행 μžμ„Έλ₯Ό 뢄석 μ²˜λ¦¬ν•  수 μžˆλ‹€.Through the execution of the posture correction app, the user's walking speed according to the frequency of reception of the pressure data value is analyzed, and the walking posture of the user according to the position pressed by the foot included in the pressure data value, and the order and intensity. Can be analyzed.

λ³Έ 발λͺ…μ—μ„œ μ œμ•ˆν•˜κ³  μžˆλŠ” FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ— λ”°λ₯΄λ©΄, FPCB ν˜•νƒœμ˜ μ••λ ₯μ„Όμ„œ, μ œμ–΄ λͺ¨λ“ˆ, 무선톡신 λͺ¨λ“ˆ, 배터리, 및 μžμ„Έ ꡐ정 앱이 νƒ‘μž¬λœ μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€λ₯Ό ν¬ν•¨ν•˜λ˜, FPCB ν˜•νƒœμ˜ 볡수의 μ••λ ₯μ„Όμ„œλ₯Ό μ‹ λ°œμ˜ 깔창에 λΆ„μ‚° λ°°μΉ˜ν•˜κ³ , μ œμ–΄ λͺ¨λ“ˆμ—μ„œ 볡수의 μ••λ ₯μ„Όμ„œλ₯Ό 톡해 κ²€μΆœλ˜λŠ” μ••λ ₯을 μ΄μš©ν•˜μ—¬ μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 값을 μΈ‘μ •ν•˜λ©°, μžμ„Έ ꡐ정 앱이 νƒ‘μž¬λœ μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€μ—μ„œ μ••λ ₯ 데이터 값을 μ΄μš©ν•œ μžμ„Έ ꡐ정 정보λ₯Ό μ‚¬μš©μžμ—κ²Œ μ œκ³΅ν•  수 μžˆλ„λ‘ κ΅¬μ„±ν•¨μœΌλ‘œμ¨, μ‚¬μš©μžμ˜ λΆˆλŸ‰ν•œ λ³΄ν–‰μžμ„Έ 및 μ§λ¦½μžμ„Έμ˜ μ‹€μ‹œκ°„ λͺ¨λ‹ˆν„°λ§ 및 μ•Œλ¦Ό μ œκ³΅μ„ 톡해 μ‚¬μš©μžκ°€ μžμ„Έκ΅μ •μ„ ν†΅ν•œ κ±΄κ°•ν•œ λͺΈμ„ μœ μ§€ν•˜κ³  관리할 수 μžˆλ„λ‘ ν•  수 μžˆλ‹€.According to the IoT system for posture control and calibration using an FPCB-based pressure sensor proposed by the present invention, a user smart device equipped with an FPCB-type pressure sensor, a control module, a wireless communication module, a battery, and a posture correction app are included. However, the plurality of FPCB-type pressure sensors are distributed and placed on the insole of the shoe, using the pressure detected by the plurality of pressure sensors in the control module to measure the pressure data value for posture correction, the posture correction app is equipped with By configuring the user's smart device to provide the user with posture correction information using pressure data values, the user maintains and manages a healthy body through posture correction by providing real-time monitoring and notification of poor pedestrian and upright posture. You can do it.

λ˜ν•œ, λ³Έ 발λͺ…에 λ”°λ₯΄λ©΄, μ‹ λ°œμ˜ κΉ”μ°½ 내에 FPCB ν˜•νƒœμ˜ μ••λ ₯μ„Όμ„œμ™€ μ œμ–΄ λͺ¨λ“ˆκ³Ό 무선톡신 λͺ¨λ“ˆ 및 배터리가 μ„€μΉ˜λ˜λ„λ‘ κ΅¬μ„±ν•¨μœΌλ‘œμ¨, μƒμš©ν™”μ‹œμ˜ μ œν’ˆμ˜ νŒŒμ† 방지 및 μ½€νŒ©νŠΈν•œ ꡬ성이 κ°€λŠ₯ν•˜κ³ , 리튬이온 배터리와 마이크둜 USB μΆ©μ „λ‹¨μžμ™€ 고무 캑의 체결 ꡬ성을 ν†΅ν•œ 배터리 μΆ©μ „μ˜ νŽΈμ˜μ„± ν–₯상과 ν•¨κ»˜ μ‚¬μš©μ˜ νŽΈμ˜μ„±μ„ κ·ΉλŒ€ν™”ν•˜κ³ , 배터리 λ―Έ μΆ©μ „μ‹œμ˜ 방수 κΈ°λŠ₯이 κ΅¬ν˜„λ  수 μžˆλ„λ‘ ν•  수 μžˆλ‹€.In addition, according to the present invention, by configuring the FPCB-type pressure sensor and control module, the wireless communication module and the battery installed in the insole of the shoe, it is possible to prevent damage and compact configuration of the product at the time of commercialization, lithium ion battery and The micro USB charging terminal and the rubber cap can be combined to improve the convenience of battery charging and maximize the convenience of use, and to realize the waterproof function when the battery is not charged.

뿐만 μ•„λ‹ˆλΌ, λ³Έ 발λͺ…은, 무선톡신 λͺ¨λ“ˆμ„ κ΅¬μ„±ν•˜λ˜, λΈ”λ£¨νˆ¬μŠ€ 톡신 및 NFC 톡신이 κ°€λŠ₯ν•˜λ„λ‘ κ΅¬μ„±ν•¨μœΌλ‘œμ¨, λΈ”λ£¨νˆ¬μŠ€ νŽ˜μ–΄λ§μ˜ 섀정이 λŠ₯μˆ™ν•œ 슀마트폰의 μ‚¬μš©μžλŠ” λ¬Όλ‘ , λΈ”λ£¨νˆ¬μŠ€ νŽ˜μ–΄λ§ 섀정이 μ–΄λ €μš΄ λŠ₯μˆ™ν•˜μ§€ μ•Šμ€ 슀마트폰의 μ‚¬μš©μž λͺ¨λ‘κ°€ νŽΈλ¦¬ν•˜κ²Œ μ‚¬μš©ν•  수 μžˆλ„λ‘ ν•  수 μžˆλ‹€.In addition, the present invention, by configuring a wireless communication module, but configured to enable Bluetooth communication and NFC communication, the user of a smart phone that is good at setting up Bluetooth pairing, as well as the user of a smart phone that is difficult to set up Bluetooth pairing It can be used by everyone.

도 1은 λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ˜ 전체 ꡬ성을 κΈ°λŠ₯λΈ”λ‘μœΌλ‘œ λ„μ‹œν•œ 도면.1 is a block diagram showing the overall configuration of the IoT system for attitude control and correction using the FPCB-based pressure sensor in accordance with an embodiment of the present invention.

도 2λŠ” λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ— μ μš©λ˜λŠ” 무선톡신 λͺ¨λ“ˆμ˜ ꡬ성을 λ„μ‹œν•œ 도면.2 is a diagram illustrating a configuration of a wireless communication module applied to an IoT system for posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention.

도 3은 λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ— μ μš©λ˜λŠ” 배터리 ꡬ성을 λ„μ‹œν•œ 도면.3 is a view showing a battery configuration applied to the IoT system for attitude control and correction using the FPCB-based pressure sensor according to an embodiment of the present invention.

도 4λŠ” λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ΄ 적용된 μ‹ λ°œκ³Ό μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€ κ°„μ˜ λΈ”λ£¨νˆ¬μŠ€ 톡신을 λ„μ‹œν•œ 도면.4 is a diagram illustrating Bluetooth communication between a shoe and a user smart device to which an IoT system for posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention is applied.

도 5λŠ” λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ΄ 적용된 μ‹ λ°œκ³Ό μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€ κ°„μ˜ NFC 톡신을 λ„μ‹œν•œ 도면.5 is a diagram illustrating NFC communication between a shoe and a user smart device to which an IoT system for posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention is applied.

도 6은 λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ΄ 적용된 μ‹ λ°œμ˜ λ’€μΆ• 뢀뢄을 λ„μ‹œν•œ 도면.Figure 6 is a view showing the heel portion of the shoe to which the IoT system for the posture control and correction using the FPCB-based pressure sensor according to an embodiment of the present invention.

<λΆ€ν˜Έμ˜ μ„€λͺ…><Description of the code>

10: μ‹ λ°œ10: shoes

11: κΉ”μ°½(인솔)11: Insole

100: λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ IoT μ‹œμŠ€ν…œ100: IoT system according to an embodiment of the present invention

110: μ••λ ₯μ„Όμ„œ110: pressure sensor

120: μ œμ–΄ λͺ¨λ“ˆ(MCU)120: control module (MCU)

130: 무선톡신 λͺ¨λ“ˆ130: wireless communication module

131: λΈ”λ£¨νˆ¬μŠ€ λͺ¨λ“ˆ131: Bluetooth module

132: NFC λͺ¨λ“ˆ132: NFC module

140: 배터리140: battery

141: 마이크둜 USB μΆ©μ „λ‹¨μž141: micro USB charging terminal

142: 고무 캑142: rubber cap

150: μžμ„Έ ꡐ정 μ•±150: posture correction app

160: μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€160: user smart device

μ΄ν•˜, μ²¨λΆ€λœ 도면을 μ°Έμ‘°ν•˜μ—¬ λ³Έ 발λͺ…이 μ†ν•˜λŠ” κΈ°μˆ λΆ„μ•Όμ—μ„œ ν†΅μƒμ˜ 지식을 가진 μžκ°€ λ³Έ 발λͺ…을 μš©μ΄ν•˜κ²Œ μ‹€μ‹œν•  수 μžˆλ„λ‘ λ°”λžŒμ§ν•œ μ‹€μ‹œμ˜ˆλ₯Ό μƒμ„Ένžˆ μ„€λͺ…ν•œλ‹€. λ‹€λ§Œ, λ³Έ 발λͺ…μ˜ λ°”λžŒμ§ν•œ μ‹€μ‹œμ˜ˆλ₯Ό μƒμ„Έν•˜κ²Œ μ„€λͺ…함에 μžˆμ–΄, κ΄€λ ¨λœ 곡지 κΈ°λŠ₯ λ˜λŠ” ꡬ성에 λŒ€ν•œ ꡬ체적인 μ„€λͺ…이 λ³Έ 발λͺ…μ˜ μš”μ§€λ₯Ό λΆˆν•„μš”ν•˜κ²Œ 흐릴 수 μžˆλ‹€κ³  νŒλ‹¨λ˜λŠ” κ²½μš°μ—λŠ” κ·Έ μƒμ„Έν•œ μ„€λͺ…을 μƒλž΅ν•œλ‹€. λ˜ν•œ, μœ μ‚¬ν•œ κΈ°λŠ₯ 및 μž‘μš©μ„ ν•˜λŠ” 뢀뢄에 λŒ€ν•΄μ„œλŠ” 도면 전체에 걸쳐 λ™μΌν•œ λΆ€ν˜Έλ₯Ό μ‚¬μš©ν•œλ‹€.Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, in describing the preferred embodiment of the present invention in detail, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

덧뢙여, λͺ…μ„Έμ„œ μ „μ²΄μ—μ„œ, μ–΄λ–€ 뢀뢄이 λ‹€λ₯Έ λΆ€λΆ„κ³Ό β€˜μ—°κ²°β€™ λ˜μ–΄ μžˆλ‹€κ³  ν•  λ•Œ, μ΄λŠ” β€˜μ§μ ‘μ μœΌλ‘œ 연결’ λ˜μ–΄ μžˆλŠ” 경우뿐만 μ•„λ‹ˆλΌ, κ·Έ 쀑간에 λ‹€λ₯Έ μ†Œμžλ₯Ό 사이에 두고 β€˜κ°„μ ‘μ μœΌλ‘œ 연결’ λ˜μ–΄ μžˆλŠ” κ²½μš°λ„ ν¬ν•¨ν•œλ‹€. λ˜ν•œ, μ–΄λ–€ κ΅¬μ„±μš”μ†Œλ₯Ό β€˜ν¬ν•¨β€™ ν•œλ‹€λŠ” 것은, νŠΉλ³„νžˆ λ°˜λŒ€λ˜λŠ” κΈ°μž¬κ°€ μ—†λŠ” ν•œ λ‹€λ₯Έ κ΅¬μ„±μš”μ†Œλ₯Ό μ œμ™Έν•˜λŠ” 것이 μ•„λ‹ˆλΌ λ‹€λ₯Έ κ΅¬μ„±μš”μ†Œλ₯Ό 더 포함할 수 μžˆλ‹€λŠ” 것을 μ˜λ―Έν•œλ‹€.In addition, in the specification, when a part is 'connected' to another part, it is not only 'directly connected' but also 'indirectly connected' with another element in between. Include. In addition, the term "comprising" a certain component means that the component may further include other components, except for the case where there is no contrary description.

도 1은 λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ˜ 전체 ꡬ성을 κΈ°λŠ₯λΈ”λ‘μœΌλ‘œ λ„μ‹œν•œ 도면이고, 도 2λŠ” λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ— μ μš©λ˜λŠ” 무선톡신 λͺ¨λ“ˆμ˜ ꡬ성을 λ„μ‹œν•œ 도면이며, 도 3은 λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ— μ μš©λ˜λŠ” 배터리 ꡬ성을 λ„μ‹œν•œ 도면이닀. 도 1 내지 도 3에 각각 λ„μ‹œλœ 바와 같이, λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œ(100)은, 볡수의 μ••λ ₯μ„Όμ„œ(110), μ œμ–΄ λͺ¨λ“ˆ(120), 무선톡신 λͺ¨λ“ˆ(130), 배터리(140), 및 μžμ„Έ ꡐ정 μ•±(150)이 νƒ‘μž¬λœ μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)λ₯Ό ν¬ν•¨ν•˜μ—¬ ꡬ성될 수 μžˆλ‹€.1 is a view showing the overall configuration of the IoT system for the attitude control and correction using the FPCB-based pressure sensor according to an embodiment of the present invention as a functional block, Figure 2 is an FPCB-based according to an embodiment of the present invention FIG. 3 is a diagram illustrating a configuration of a wireless communication module applied to an IoT system regarding posture control and correction using a pressure sensor of FIG. 3, and FIG. 3 illustrates an IoT regarding posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention. A diagram illustrating a battery configuration applied to the system. 1 to 3, the IoT system 100 for attitude control and correction using the FPCB-based pressure sensor according to an embodiment of the present invention, a plurality of pressure sensors 110, the control module ( 120, the wireless communication module 130, the battery 140, and the posture correcting app 150 may be configured to include a user smart device 160.

볡수의 μ••λ ₯μ„Όμ„œ(110)λŠ”, μ‚¬μš©μžκ°€ μ‹ λŠ” μ‹ λ°œ(10)의 κΉ”μ°½(11) 내에 λΆ„μ‚° 배치되며, μ‚¬μš©μžμ˜ 보행 λ˜λŠ” μ‘°κΉ… μ‹œμ— μ‚¬μš©μžμ˜ λ°œμ— μ˜ν•΄ κ°€ν•΄μ§€λŠ” μ••λ ₯을 κ²€μΆœν•˜λŠ” μ„Όμ„œμ˜ ꡬ성이닀. μ΄λŸ¬ν•œ 볡수의 μ••λ ₯μ„Όμ„œ(110)λŠ” 각각이 FPCB(Flexible Printed Circuit Board) ν˜•νƒœμ˜ μ••λ ₯μ„Όμ„œλ‘œ ꡬ성될 수 μžˆλ‹€. μ—¬κΈ°μ„œ, FPCB ν˜•νƒœμ˜ μ••λ ₯μ„Όμ„œλ‘œ κ΅¬ν˜„λ˜λŠ” 볡수의 μ••λ ₯μ„Όμ„œ(110)λŠ” μ‹ λ°œ(10)의 κΉ”μ°½(11), 즉 μ‹ λ°œ μΈμ†”μ˜ λ‘κ»˜(10~20㎜) 내뢀에 μ„€μΉ˜λ  수 μžˆλŠ” κ΅¬μ„±μœΌλ‘œ, λ‘κ»˜μ— λŒ€ν•œ μ œμ•½μœΌλ‘œλΆ€ν„° 자유둜우며, μ œν’ˆμ˜ κ°„μ†Œν™”λ‘œ κ΅¬ν˜„λ  수 μžˆλ„λ‘ ν•œλ‹€.The plurality of pressure sensors 110 are distributed in the insole 11 of the shoe 10 worn by the user, and are configured to detect a pressure applied by the foot of the user when the user walks or jogs. Each of the plurality of pressure sensors 110 may be configured as a pressure sensor in the form of a flexible printed circuit board (FPCB). Here, the plurality of pressure sensors 110 implemented as a pressure sensor of the FPCB type is a configuration that can be installed in the insole 11 of the shoe 10, that is, the thickness of the shoe insole (10 ~ 20mm), the thickness It is free from constraints and can be implemented with simplification of the product.

μ œμ–΄ λͺ¨λ“ˆ(120)은, 볡수의 μ••λ ₯μ„Όμ„œ(110)λ‘œλΆ€ν„° κ²€μΆœλ˜λŠ” μ••λ ₯듀을 μ΄μš©ν•˜μ—¬ μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 값을 μΈ‘μ •ν•˜λŠ” μ œμ–΄μ˜ ꡬ성이닀. μ΄λŸ¬ν•œ μ œμ–΄ λͺ¨λ“ˆ(120)μ—μ„œ μ²˜λ¦¬λ˜λŠ” μ••λ ₯ 데이터 값은 볡수의 μ••λ ₯μ„Όμ„œ(110)λ‘œλΆ€ν„° κ²€μΆœλ˜λŠ” μ••λ ₯듀을 μ΄μš©ν•œ μ‚¬μš©μžμ˜ λ°œμ— μ˜ν•΄ λˆŒλ¦¬λŠ” μœ„μΉ˜μ™€, μˆœμ„œ, 및 강도λ₯Ό 포함할 수 μžˆλ‹€. μ—¬κΈ°μ„œ, μ œμ–΄ λͺ¨λ“ˆ(120)은 볡수의 μ••λ ₯μ„Όμ„œ(110)와 μ „κΈ°μ μœΌλ‘œ μ—°κ²° μ ‘μ†λ˜λ©°, λ³„λ„μ˜ PCB 블둝에 κ΅¬ν˜„λ˜κ±°λ‚˜, λ˜λŠ” 볡수의 μ••λ ₯μ„Όμ„œ(110)와 같이 FPCB 상에 κ΅¬ν˜„λ  μˆ˜λ„ μžˆλ‹€.The control module 120 is a configuration of a control for measuring a pressure data value for posture correction using the pressures detected from the plurality of pressure sensors 110. The pressure data value processed by the control module 120 may include a position, an order, and an intensity pressed by a user's foot using pressures detected from the plurality of pressure sensors 110. Here, the control module 120 is electrically connected and connected to the plurality of pressure sensors 110, may be implemented in a separate PCB block, or may be implemented on the FPCB, such as a plurality of pressure sensors 110.

무선톡신 λͺ¨λ“ˆ(130)은, μ œμ–΄ λͺ¨λ“ˆ(120)의 μ œμ–΄ ν•˜μ—, μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 값을 무선 근거리 톡신 방식을 톡해 μ œκ³΅ν•˜λŠ” 무선톡신을 μœ„ν•œ λͺ¨λ“ˆμ˜ ꡬ성이닀. μ΄λŸ¬ν•œ 무선톡신 λͺ¨λ“ˆ(130)은 λΈ”λ£¨νˆ¬μŠ€ νŽ˜μ–΄λ§μ„ 톡해 ν›„μˆ ν•˜κ²Œ 될 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)와 λΈ”λ£¨νˆ¬μŠ€ 톡신을 μˆ˜ν–‰ν•˜λŠ” λΈ”λ£¨νˆ¬μŠ€ λͺ¨λ“ˆ(131)을 포함할 수 μžˆλ‹€. λ˜ν•œ, 무선톡신 λͺ¨λ“ˆ(130)은 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)와 NFC(Near Field Communication) 톡신을 μˆ˜ν–‰ν•˜λŠ” NFC λͺ¨λ“ˆ(132)을 더 ν¬ν•¨ν•˜μ—¬ ꡬ성할 수 μžˆλ‹€. μ—¬κΈ°μ„œ, NFC λͺ¨λ“ˆ(132)은 λΈ”λ£¨νˆ¬μŠ€ νŽ˜μ–΄λ§μ΄ μ–΄λ €μš΄ μ–΄λ₯Έλ“€μ˜ νœ΄λŒ€ν° μ‚¬μš©μ΄ 편의λ₯Ό μ œκ³΅ν•˜κΈ° μœ„ν•œ κ²ƒμœΌλ‘œ, μžμ„Έ ꡐ정 μ•±(150)이 νƒ‘μž¬λ˜μ–΄ μ‹€ν–‰λ˜λŠ” μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160), 즉 μ‚¬μš©μžκ°€ νœ΄λŒ€ν•˜λŠ” νœ΄λŒ€ν°μ„ μ‹ λ°œ(10)의 컀버 μͺ½μœΌλ‘œ κ·Όμ ‘μ‹œν‚€λŠ” λ™μž‘λ§ŒμœΌλ‘œ μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 κ°’μ˜ 전솑이 κ°€λŠ₯ν•˜λ„λ‘ ν•œλ‹€.The wireless communication module 130 is a configuration of a module for wireless communication, which provides a pressure data value for posture correction through a wireless local area communication method under the control of the control module 120. The wireless communication module 130 may include a Bluetooth module 131 which performs Bluetooth communication with the user smart device 160 which will be described later through Bluetooth pairing. In addition, the wireless communication module 130 may further include an NFC module 132 that performs Near Field Communication (NFC) communication with the user smart device 160. Here, the NFC module 132 is for the convenience of adults using a mobile phone difficult to pair Bluetooth, the posture correction app 150 is mounted on the user smart device 160, that is, the user carries a shoe Only the operation of approaching the cover side of 10 allows the transmission of pressure data values for posture correction.

배터리(140)λŠ”, 볡수의 μ••λ ₯μ„Όμ„œ(110)와 μ œμ–΄ λͺ¨λ“ˆ(120) 및 무선톡신 λͺ¨λ“ˆ(130)의 ꡬ동을 μœ„ν•œ 전원을 κ³΅κΈ‰ν•˜λŠ” μ „μ›μ˜ ꡬ성이닀. μ΄λŸ¬ν•œ 배터리(140)λŠ” 도 3 내지 도 6에 각각 λ„μ‹œλœ 바와 같이, μ‹ λ°œ(10)의 λ’€μΆ• 뢀뢄을 톡해 μ™ΈλΆ€λ‘œ λ…ΈμΆœλ˜λŠ” 마이크둜 USB μΆ©μ „λ‹¨μž(141)λ₯Ό 톡해 좩전이 κ°€λŠ₯ν•œ 리튬이온 λ°°ν„°λ¦¬λ‘œ κ΅¬μ„±λ˜κ³ , 마이크둜 USB μΆ©μ „λ‹¨μž(141)λŠ” 방수λ₯Ό μœ„ν•œ 고무 μΊ‘(142)이 μ²΄κ²°λ˜λŠ” ꡬ쑰둜 ꡬ성될 수 μžˆλ‹€. μ—¬κΈ°μ„œ, 배터리(140)λŠ” 리튬이온 배터리λ₯Ό ν†΅ν•œ μ‚¬μš©μ‹œκ°„μ„ μ¦λŒ€μ‹œν‚€λŠ” 역할을 ν•˜λ©°, 마이크둜 USB μΆ©μ „λ‹¨μž(141)λ₯Ό ν†΅ν•œ νŽΈλ¦¬ν•œ 좩전이 κ°€λŠ₯ν•˜λ„λ‘ ν•˜λ©°, κ°œνμ™€ 밀폐가 μ‚¬μš©μžμ— μ˜ν•΄ μ„ νƒμ μœΌλ‘œ κ°€λŠ₯ν•œ 고무 μΊ‘(142)의 μ‚¬μš©μœΌλ‘œ μΆ©μ „μ˜ λ―Έμ‚¬μš© μ‹œμ—λŠ” κΈ°λ°€ν•œ 방수 κΈ°λŠ₯을 μœ μ§€ν•  수 μžˆλ„λ‘ ν•œλ‹€.The battery 140 is a configuration of a power supply for supplying power for driving the plurality of pressure sensors 110, the control module 120, and the wireless communication module 130. As shown in FIGS. 3 to 6, the battery 140 includes a lithium ion battery that can be charged through the micro USB charging terminal 141 exposed to the outside through the heel portion of the shoe 10. The micro USB charging terminal 141 may have a structure in which a rubber cap 142 for waterproofing is fastened. Here, the battery 140 serves to increase the use time through the lithium ion battery, to enable convenient charging through the micro USB charging terminal 141, rubber cap (opening and closing can be selectively selected by the user ( 142) ensures a confidential waterproof function when not charging.

μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)λŠ”, μ‚¬μš©μžμ˜ 보행 μžμ„Έ 및 직립 μžμ„Έλ₯Ό μ‹€μ‹œκ°„ λͺ¨λ‹ˆν„°λ§ ν•˜κΈ° μœ„ν•œ μžμ„Έ ꡐ정 μ•±(150)을 νƒ‘μž¬ν•˜λ©°, 무선톡신 λͺ¨λ“ˆ(130)을 톡해 μ œκ³΅λ˜λŠ” μ••λ ₯ 데이터 값에 κΈ°μ΄ˆν•˜μ—¬ μ‚¬μš©μžμ˜ μžμ„Έ ꡐ정 정보λ₯Ό μ œκ³΅ν•˜λŠ” μ‚¬μš©μžκ°€ νœ΄λŒ€ν•˜λŠ” 슀마트폰의 ꡬ성이닀. μ΄λŸ¬ν•œ μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)λŠ” μžμ„Έ ꡐ정 μ•±(150)의 싀행을 톡해, 무선톡신 λͺ¨λ“ˆ(130)을 톡해 μ œκ³΅λ˜λŠ” μ••λ ₯ 데이터 값에 ν¬ν•¨λœ μ‚¬μš©μžμ˜ λ°œμ— μ˜ν•΄ λˆŒλ¦¬λŠ” μœ„μΉ˜μ™€, μˆœμ„œ, 및 강도에 κΈ°μ΄ˆν•˜μ—¬ μ‚¬μš©μžμ˜ λΆˆλŸ‰ν•œ λ³΄ν–‰μžμ„Έ 및 μ§λ¦½μžμ„Έλ₯Ό νŒλ‹¨ν•˜κ³ , 그에 λŒ€μ‘ν•œ μžμ„Έ ꡐ정 정보λ₯Ό λ””μŠ€ν”Œλ ˆμ΄ ν™”λ©΄ λ˜λŠ” μ•ŒλžŒμœΌλ‘œ μ œκ³΅ν•  수 μžˆλ‹€. 즉, μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)λŠ” μ‚¬μš©μžμ˜ λΆˆλŸ‰ν•œ λ³΄ν–‰μžμ„Έ 및 μ§λ¦½μžμ„Έλ₯Ό λͺ¨λ‹ˆν„°λ§ ν•˜κ³ , 그에 λŒ€μ‘ν•œ λ³΄ν–‰μžμ„Έ λ˜λŠ” μ§λ¦½μžμ„Έκ°€ λΆˆλŸ‰ν•œ 경우, 그에 λŒ€ν•œ μ•Œλ¦Όμ„ μ•ŒλžŒμœΌλ‘œ μ¦‰μ‹œ μ œκ³΅ν•˜μ—¬ μ‚¬μš©μžμ˜ λ³΄ν–‰ν•˜λŠ” μžμ„Έκ°€ ꡐ정될 수 μžˆλ„λ‘ ν•  수 μžˆλ‹€. λ˜ν•œ, λ””μŠ€ν”Œλ ˆμ΄ 화면을 ν†΅ν•΄μ„œλ„ μ‚¬μš©μžμ˜ 보행 μžμ„Έκ°€ ꡐ정될 수 μžˆλ„λ‘ μžμ„Έ ꡐ정 정보λ₯Ό λ””μŠ€ν”Œλ ˆμ΄ 화면을 톡해 μ œκ³΅ν•  μˆ˜λ„ μžˆλ‹€. μ—¬κΈ°μ„œ, λ””μŠ€ν”Œλ ˆμ΄ 화면을 톡해 μ œκ³΅λ˜λŠ” μžμ„Έ ꡐ정 μ •λ³΄λŠ” μ‚¬μš©μžμ˜ 쒌츑 발과 우츑 λ°œμ— κ°€ν•΄μ§€λŠ” μ••λ ₯ μ„ΈκΈ°μ˜ 차이λ₯Ό μ œκ³΅ν•  수 μžˆλ‹€.The user smart device 160 includes a posture correction app 150 for real-time monitoring of a user's walking posture and upright posture, and correcting a posture of a user based on a pressure data value provided through the wireless communication module 130. It is a configuration of a smart phone carried by a user who provides information. The user smart device 160 is based on the position, order, and intensity pressed by the user's foot included in the pressure data value provided through the wireless communication module 130 through the execution of the posture correcting app 150. The bad pedestrian and upright posture of the user may be determined, and posture correction information corresponding thereto may be provided as a display screen or an alarm. That is, the user smart device 160 monitors the poor pedestrian posture and the upright posture of the user, and if the corresponding pedestrian posture or the upright posture is poor, a notification about the prompt is immediately provided as an alarm to correct the walking posture of the user. You can do that. In addition, the posture correction information may be provided through the display screen so that the walking posture of the user may be corrected through the display screen. Here, the posture correction information provided through the display screen may provide a difference between pressure intensities applied to the left foot and the right foot of the user.

λ˜ν•œ, μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)λŠ” μžμ„Έ ꡐ정 μ•±(150)의 싀행을 톡해, μ••λ ₯ 데이터 κ°’μ˜ μˆ˜μ‹  λΉˆλ„μ— λ”°λ₯Έ μ‚¬μš©μžμ˜ κ±·λŠ” 속도λ₯Ό 뢄석 μ²˜λ¦¬ν•˜κ³ , μ••λ ₯ 데이터 값에 ν¬ν•¨λœ λ°œμ— μ˜ν•΄ λˆŒλ¦¬λŠ” μœ„μΉ˜μ™€, μˆœμ„œ 및 세기에 따라 μ‚¬μš©μžμ˜ 보행 μžμ„Έλ₯Ό 뢄석 μ²˜λ¦¬ν•  수 μžˆλ‹€.In addition, the user smart device 160 analyzes the walking speed of the user according to the frequency of receiving the pressure data value through the execution of the posture correcting app 150, and the position pressed by the foot included in the pressure data value, The walking posture of the user may be analyzed and processed according to the order and intensity.

도 4λŠ” λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ΄ 적용된 μ‹ λ°œκ³Ό μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€ κ°„μ˜ λΈ”λ£¨νˆ¬μŠ€ 톡신을 λ„μ‹œν•œ 도면이고, 도 5λŠ” λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ΄ 적용된 μ‹ λ°œκ³Ό μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€ κ°„μ˜ NFC 톡신을 λ„μ‹œν•œ 도면이닀. 도 4λŠ” λΈ”λ£¨νˆ¬μŠ€ νŽ˜μ–΄λ§μ˜ μ„€μ •, 즉 슀마트폰의 μ‚¬μš©μ΄ λŠ₯μˆ™ν•œ μ‚¬μš©μžλ“€μ΄ λΈ”λ£¨νˆ¬μŠ€ 톡신을 μˆ˜ν–‰ν•  λ•Œ μ‚¬μš©ν•˜λŠ” 일둀λ₯Ό λ‚˜νƒ€λ‚΄κ³  μžˆλ‹€. 도 5λŠ” λΈ”λ£¨νˆ¬μŠ€ νŽ˜μ–΄λ§μ˜ 섀정이 μ–΄λ €μš΄ 뢄듀이 Ntag λ°©μ‹μ˜ NFC 톡신을 μ΄μš©ν•˜κΈ° μœ„ν•΄ μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)λ₯Ό μ‹ λ°œ(10)의 컀버 μͺ½μœΌλ‘œ κ·Όμ ‘μ‹œν‚€λŠ” κ²ƒλ§ŒμœΌλ‘œλ„ κ΄€λ ¨ 정보, 즉 μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 값이 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)둜 μ œκ³΅λ˜λŠ” NFC 톡신 μˆ˜ν–‰μ˜ 일둀λ₯Ό λ‚˜νƒ€λ‚΄κ³  μžˆλ‹€.4 is a diagram illustrating Bluetooth communication between a shoe and a user smart device to which an IoT system for posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention is applied, and FIG. 5 is an embodiment of the present invention. FIG. 2 is a diagram illustrating NFC communication between a shoe and an user smart device to which an IoT system for posture control and correction using an FPCB-based pressure sensor is applied. 4 illustrates an example of setting Bluetooth pairing, that is, a user who is familiar with using a smartphone to perform Bluetooth communication. FIG. 5 shows related information, that is, pressure data values for posture correction, by simply approaching the user smart device 160 toward the cover of the shoe 10 in order to use Ntag NFC communication for those who have difficulty setting up Bluetooth pairing. An example of performing NFC communication provided to the user smart device 160 is shown.

도 6은 λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ΄ 적용된 μ‹ λ°œμ˜ λ’€μΆ• 뢀뢄을 λ„μ‹œν•œ 도면이닀. 도 6은 λ³Έ 발λͺ…μ˜ IoT μ‹œμŠ€ν…œ(100)의 μ••λ ₯μ„Όμ„œ(110)와, μ œμ–΄ λͺ¨λ“ˆ(120)κ³Ό, 무선톡신 λͺ¨λ“ˆ(130)κ³Ό, 배터리(140)κ°€ μ‹ λ°œ(10)의 κΉ”μ°½(11) 내에 μ„€μΉ˜λœ μƒνƒœμ—μ„œ, μ‹ λ°œ(10)의 λ’€μΆ•μœΌλ‘œ 마이크둜 USB μΆ©μ „λ‹¨μž(141)κ°€ λ…ΈμΆœλ˜λŠ” ν˜•νƒœλ‘œ 배치되고, 고무 κ°­(142)의 κ°œνμ— μ˜ν•΄ 마이크둜 USB μΆ©μ „λ‹¨μž(141)κ°€ λ…ΈμΆœλœ ꡬ성을 λ‚˜νƒ€λ‚΄κ³  μžˆλ‹€. 즉, 마이크둜 USB μΆ©μ „λ‹¨μž(141)λŠ” 고무 κ°­(142)에 μ˜ν•΄ λ°€νλœ 경우 κΈ°λ°€λœ 방수 κΈ°λŠ₯을 μ œκ³΅ν•˜κ³ , 고무 κ°­(142)의 개폐 μ‹œμ—λŠ” 마이크둜 USB μΆ©μ „λ‹¨μž(141)λ₯Ό ν†΅ν•œ 리튬이온 λ°°ν„°λ¦¬λ‘œ κ΅¬μ„±λ˜λŠ” 배터리(140)의 좩전이 κ°€λŠ₯ν•˜λ„λ‘ ν•œλ‹€.FIG. 6 is a diagram illustrating a heel portion of a shoe to which an IoT system for posture control and correction using an FPCB-based pressure sensor according to an embodiment of the present invention is applied. 6 illustrates a pressure sensor 110, a control module 120, a wireless communication module 130, and a battery 140 in the insole 11 of the shoe 10 of the IoT system 100 of the present invention. In the state, the micro USB charging terminal 141 is disposed in a form in which the micro USB charging terminal 141 is exposed to the heel of the shoe 10, and the micro USB charging terminal 141 is exposed by opening and closing the rubber gap 142. That is, the micro USB charging terminal 141 provides a sealed waterproof function when sealed by the rubber gap 142, and when the rubber gap 142 is opened and closed with a lithium ion battery through the micro USB charging terminal 141. It is possible to charge the battery 140 is configured.

μƒμˆ ν•œ 바와 같이, λ³Έ 발λͺ…μ˜ μΌμ‹€μ‹œμ˜ˆμ— λ”°λ₯Έ FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œμ€, FPCB ν˜•νƒœμ˜ 볡수의 μ••λ ₯μ„Όμ„œλ₯Ό μ‹ λ°œμ˜ 깔창에 λΆ„μ‚° λ°°μΉ˜ν•˜κ³ , μ œμ–΄ λͺ¨λ“ˆμ—μ„œ 볡수의 μ••λ ₯μ„Όμ„œλ₯Ό 톡해 κ²€μΆœλ˜λŠ” μ••λ ₯을 μ΄μš©ν•˜μ—¬ μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 값을 μΈ‘μ •ν•˜λ©°, μžμ„Έ ꡐ정 앱이 νƒ‘μž¬λœ μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€μ—μ„œ μ••λ ₯ 데이터 값을 μ΄μš©ν•œ μžμ„Έ ꡐ정 정보λ₯Ό μ‚¬μš©μžμ—κ²Œ μ œκ³΅ν•  수 μžˆλ„λ‘ κ΅¬μ„±ν•¨μœΌλ‘œμ¨, μ‚¬μš©μžμ˜ λΆˆλŸ‰ν•œ λ³΄ν–‰μžμ„Έ 및 μ§λ¦½μžμ„Έμ˜ μ‹€μ‹œκ°„ λͺ¨λ‹ˆν„°λ§ 및 μ•Œλ¦Ό μ œκ³΅μ„ 톡해 μ‚¬μš©μžκ°€ μžμ„Έκ΅μ •μ„ ν†΅ν•œ κ±΄κ°•ν•œ λͺΈμ„ μœ μ§€ν•˜κ³  관리할 수 μžˆλ„λ‘ ν•˜κ³ , λ˜ν•œ, μ‹ λ°œμ˜ κΉ”μ°½ 내에 FPCB ν˜•νƒœμ˜ μ••λ ₯μ„Όμ„œμ™€ μ œμ–΄ λͺ¨λ“ˆκ³Ό 무선톡신 λͺ¨λ“ˆ 및 배터리가 μ„€μΉ˜λ˜λ„λ‘ κ΅¬μ„±ν•¨μœΌλ‘œμ¨, μƒμš©ν™”μ‹œμ˜ μ œν’ˆμ˜ νŒŒμ† 방지 및 μ½€νŒ©νŠΈν•œ ꡬ성이 κ°€λŠ₯ν•˜κ³ , 리튬이온 배터리와 마이크둜 USB μΆ©μ „λ‹¨μžμ™€ 고무 캑의 체결 ꡬ성을 ν†΅ν•œ 배터리 μΆ©μ „μ˜ νŽΈμ˜μ„± ν–₯상과 ν•¨κ»˜ μ‚¬μš©μ˜ νŽΈμ˜μ„±μ„ κ·ΉλŒ€ν™”ν•˜κ³ , 배터리 λ―Έ μΆ©μ „μ‹œμ˜ 방수 κΈ°λŠ₯이 κ΅¬ν˜„λ  수 μžˆλ„λ‘ ν•  수 있게 λœλ‹€. 특히, λΈ”λ£¨νˆ¬μŠ€ 톡신 및 NFC 톡신이 κ°€λŠ₯ν•œ 무선톡신 λͺ¨λ“ˆμ„ κ΅¬μ„±ν•¨μœΌλ‘œμ¨, λ‚¨λ…€λ…Έμ†Œ λ‚˜μ΄μ— 상관없이 λΈ”λ£¨νˆ¬μŠ€ νŽ˜μ–΄λ§μ˜ 섀정이 λŠ₯μˆ™ν•œ 슀마트폰의 μ‚¬μš©μžλŠ” λ¬Όλ‘ , λΈ”λ£¨νˆ¬μŠ€ νŽ˜μ–΄λ§ 섀정이 μ–΄λ €μš΄ λŠ₯μˆ™ν•˜μ§€ μ•Šμ€ 슀마트폰의 μ‚¬μš©μž λͺ¨λ‘κ°€ νŽΈλ¦¬ν•˜κ²Œ μ‚¬μš©ν•  수 μžˆλ„λ‘ ν•  수 있게 λœλ‹€.As described above, the IoT system for attitude control and correction using the FPCB-based pressure sensor according to an embodiment of the present invention, the plurality of FPCB-type pressure sensors are distributed in the insole of the shoe, a plurality of control modules By measuring the pressure data value for posture correction by using the pressure detected by the pressure sensor, by configuring the user smart device equipped with the posture correction app to provide the user with posture correction information using the pressure data value, By providing real-time monitoring and notification of poor pedestrian and upright postures, the user can maintain and manage a healthy body through posture correction.FPCB-type pressure sensor, control module and wireless communication module are also provided in the shoe insole. And the battery to be installed, thereby preventing damage to the product during the commercialization and compact configuration Performance and maximize ease of use with the improved convenience of the battery charge through the fastening structure of the lithium ion battery and a micro-USB charging terminal and the rubber cap, and the water resistance of the battery unfilled it is possible to to be implemented. In particular, by configuring a wireless communication module capable of Bluetooth communication and NFC communication, both users of smartphones that are good at setting up Bluetooth pairing, regardless of age and gender, as well as users of smartphones who are not good at setting up Bluetooth pairing are convenient. So that you can use it.

이상 μ„€λͺ…ν•œ λ³Έ 발λͺ…은 λ³Έ 발λͺ…이 μ†ν•œ κΈ°μˆ λΆ„μ•Όμ—μ„œ ν†΅μƒμ˜ 지식을 가진 μžμ— μ˜ν•˜μ—¬ λ‹€μ–‘ν•œ λ³€ν˜•μ΄λ‚˜ μ‘μš©μ΄ κ°€λŠ₯ν•˜λ©°, λ³Έ 발λͺ…에 λ”°λ₯Έ 기술적 μ‚¬μƒμ˜ λ²”μœ„λŠ” μ•„λž˜μ˜ νŠΉν—ˆμ²­κ΅¬λ²”μœ„μ— μ˜ν•˜μ—¬ μ •ν•΄μ Έμ•Ό ν•  것이닀.The present invention described above may be variously modified or applied by those skilled in the art, and the scope of the technical idea according to the present invention should be defined by the following claims.

Claims (8)

FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œ(100)μœΌλ‘œμ„œ,IoT system 100 for attitude control and correction using an FPCB-based pressure sensor, μ‚¬μš©μžκ°€ μ‹ λŠ” μ‹ λ°œ(10)의 κΉ”μ°½(11) 내에 λΆ„μ‚° 배치되며, μ‚¬μš©μžμ˜ 보행 λ˜λŠ” μ‘°κΉ… μ‹œμ— μ‚¬μš©μžμ˜ λ°œμ— μ˜ν•΄ κ°€ν•΄μ§€λŠ” μ••λ ₯을 κ²€μΆœν•˜λŠ” 볡수의 μ••λ ₯μ„Όμ„œ(110);A plurality of pressure sensors 110 disposed in the insole 11 of the shoe 10 worn by the user and detecting pressure exerted by the user's foot during walking or jogging of the user; 상기 볡수의 μ••λ ₯μ„Όμ„œ(110)λ‘œλΆ€ν„° κ²€μΆœλ˜λŠ” μ••λ ₯듀을 μ΄μš©ν•˜μ—¬ μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 값을 μΈ‘μ •ν•˜λŠ” μ œμ–΄ λͺ¨λ“ˆ(120);A control module (120) for measuring pressure data values for posture correction using pressures detected from the plurality of pressure sensors (110); 상기 μ œμ–΄ λͺ¨λ“ˆ(120)의 μ œμ–΄ ν•˜μ—, 상기 μžμ„Έ ꡐ정을 μœ„ν•œ μ••λ ₯ 데이터 값을 무선 근거리 톡신 방식을 톡해 μ œκ³΅ν•˜λŠ” 무선톡신 λͺ¨λ“ˆ(130);Under the control of the control module 120, a wireless communication module 130 for providing a pressure data value for the posture correction via a wireless local area communication method; 상기 볡수의 μ••λ ₯μ„Όμ„œ(110)와 μ œμ–΄ λͺ¨λ“ˆ(120) 및 무선톡신 λͺ¨λ“ˆ(130)의 ꡬ동을 μœ„ν•œ 전원을 κ³΅κΈ‰ν•˜λŠ” 배터리(140); 및A battery 140 for supplying power for driving the plurality of pressure sensors 110, the control module 120, and the wireless communication module 130; And μ‚¬μš©μžμ˜ 보행 μžμ„Έ 및 직립 μžμ„Έλ₯Ό μ‹€μ‹œκ°„ λͺ¨λ‹ˆν„°λ§ ν•˜κΈ° μœ„ν•œ μžμ„Έ ꡐ정 μ•±(150)을 νƒ‘μž¬ν•˜λ©°, 상기 무선톡신 λͺ¨λ“ˆ(130)을 톡해 μ œκ³΅λ˜λŠ” μ••λ ₯ 데이터 값에 κΈ°μ΄ˆν•˜μ—¬ μ‚¬μš©μžμ˜ μžμ„Έ ꡐ정 정보λ₯Ό μ œκ³΅ν•˜λŠ” μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)λ₯Ό ν¬ν•¨ν•˜λŠ” 것을 νŠΉμ§•μœΌλ‘œ ν•˜λŠ”, FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œ.A user smart device equipped with a posture correction app 150 for real-time monitoring of a walking posture and an upright posture of a user, and providing posture correction information of the user based on a pressure data value provided through the wireless communication module 130. IoT system for attitude control and correction using the FPCB-based pressure sensor, characterized in that it comprises a (160). 제1항에 μžˆμ–΄μ„œ, 상기 볡수의 μ••λ ₯μ„Όμ„œ(110)λŠ”,The method of claim 1, wherein the plurality of pressure sensors 110, 각각이 FPCB(Flexible Printed Circuit Board) ν˜•νƒœμ˜ μ••λ ₯μ„Όμ„œλ‘œ κ΅¬μ„±λ˜λŠ” 것을 νŠΉμ§•μœΌλ‘œ ν•˜λŠ”, FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œ.IoT system for attitude control and correction using an FPCB-based pressure sensor, characterized in that each of the pressure sensor in the form of FPCB (Flexible Printed Circuit Board). 제1ν•­ λ˜λŠ” 제2항에 μžˆμ–΄μ„œ, 상기 μ••λ ₯ 데이터 값은,The method of claim 1 or 2, wherein the pressure data value, 상기 볡수의 μ••λ ₯μ„Όμ„œ(110)λ‘œλΆ€ν„° κ²€μΆœλ˜λŠ” μ••λ ₯듀을 μ΄μš©ν•œ μ‚¬μš©μžμ˜ λ°œμ— μ˜ν•΄ λˆŒλ¦¬λŠ” μœ„μΉ˜μ™€, μˆœμ„œ, 및 강도λ₯Ό ν¬ν•¨ν•˜λŠ” 것을 νŠΉμ§•μœΌλ‘œ ν•˜λŠ”, FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œ.IoT system according to the posture control and correction using the FPCB-based pressure sensor, characterized in that it comprises a position, the order, and the intensity pressed by the user's foot using the pressures detected from the plurality of pressure sensors (110). 제3항에 μžˆμ–΄μ„œ, 상기 무선톡신 λͺ¨λ“ˆ(130)은,The method of claim 3, wherein the wireless communication module 130, 상기 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)와 λΈ”λ£¨νˆ¬μŠ€ 톡신을 μˆ˜ν–‰ν•˜λŠ” λΈ”λ£¨νˆ¬μŠ€ λͺ¨λ“ˆ(131)을 ν¬ν•¨ν•˜λŠ” 것을 νŠΉμ§•μœΌλ‘œ ν•˜λŠ”, FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œ.IoT system for posture control and calibration using a FPCB-based pressure sensor, characterized in that it comprises a Bluetooth module 131 for performing Bluetooth communication with the user smart device (160). 제4항에 μžˆμ–΄μ„œ, 상기 무선톡신 λͺ¨λ“ˆ(130)은,The method of claim 4, wherein the wireless communication module 130, 상기 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)와 NFC(Near Field Communication) 톡신을 μˆ˜ν–‰ν•˜λŠ” NFC λͺ¨λ“ˆ(132)을 더 ν¬ν•¨ν•˜μ—¬ κ΅¬μ„±ν•˜λŠ” 것을 νŠΉμ§•μœΌλ‘œ ν•˜λŠ”, FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œ.IoT system for the posture control and calibration using the FPCB-based pressure sensor, characterized in that further comprising the NFC module (132) for performing NFC (Near Field Communication) communication with the user smart device (160). 제4항에 μžˆμ–΄μ„œ, 상기 배터리(140)λŠ”,The method of claim 4, wherein the battery 140, μ‹ λ°œ(10)의 λ’€μΆ• 뢀뢄을 톡해 μ™ΈλΆ€λ‘œ λ…ΈμΆœλ˜λŠ” 마이크둜 USB μΆ©μ „λ‹¨μž(141)λ₯Ό 톡해 좩전이 κ°€λŠ₯ν•œ 리튬이온 λ°°ν„°λ¦¬λ‘œ κ΅¬μ„±λ˜κ³ , 상기 마이크둜 USB μΆ©μ „λ‹¨μž(141)λŠ” 방수λ₯Ό μœ„ν•œ 고무 μΊ‘(142)이 μ²΄κ²°λ˜λŠ” 것을 νŠΉμ§•μœΌλ‘œ ν•˜λŠ”, FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œ.It is composed of a lithium ion battery that can be charged through the micro USB charging terminal 141 exposed to the outside through the heel portion of the shoe 10, the micro USB charging terminal 141 is a rubber cap 142 for waterproofing IoT system for attitude control and correction using an FPCB-based pressure sensor, characterized in that the fastening. 제4항에 μžˆμ–΄μ„œ, 상기 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)λŠ”,The method of claim 4, wherein the user smart device 160, 상기 μžμ„Έ ꡐ정 μ•±(150)의 싀행을 톡해, 상기 무선톡신 λͺ¨λ“ˆ(130)을 톡해 μ œκ³΅λ˜λŠ” μ••λ ₯ 데이터 값에 ν¬ν•¨λœ μ‚¬μš©μžμ˜ λ°œμ— μ˜ν•΄ λˆŒλ¦¬λŠ” μœ„μΉ˜μ™€, μˆœμ„œ, 및 강도에 κΈ°μ΄ˆν•˜μ—¬ μ‚¬μš©μžμ˜ λΆˆλŸ‰ν•œ λ³΄ν–‰μžμ„Έ 및 μ§λ¦½μžμ„Έλ₯Ό νŒλ‹¨ν•˜κ³ , 그에 λŒ€μ‘ν•œ μžμ„Έ ꡐ정 정보λ₯Ό λ””μŠ€ν”Œλ ˆμ΄ ν™”λ©΄ λ˜λŠ” μ•ŒλžŒμœΌλ‘œ μ œκ³΅ν•˜λŠ” 것을 νŠΉμ§•μœΌλ‘œ ν•˜λŠ”, FPCB 기반의 μ••λ ₯μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œ.Through the execution of the posture correcting app 150, a bad pedestrian path of the user based on the position, the order, and the intensity pressed by the user's foot included in the pressure data value provided through the wireless communication module 130 And determining the upright position and providing the posture correction information corresponding to the posture correction on a display screen or an alarm, IoT system for posture control and correction using an FPCB-based pressure sensor. 제7항에 μžˆμ–΄μ„œ, 상기 μ‚¬μš©μž 슀마트 λ””λ°”μ΄μŠ€(160)λŠ”,The method of claim 7, wherein the user smart device 160, 상기 μžμ„Έ ꡐ정 μ•±(150)의 싀행을 톡해, 상기 μ••λ ₯ 데이터 κ°’μ˜ μˆ˜μ‹  λΉˆλ„μ— λ”°λ₯Έ μ‚¬μš©μžμ˜ κ±·λŠ” 속도λ₯Ό 뢄석 μ²˜λ¦¬ν•˜κ³ , 상기 μ••λ ₯ 데이터 값에 ν¬ν•¨λœ λ°œμ— μ˜ν•΄ λˆŒλ¦¬λŠ” μœ„μΉ˜μ™€, μˆœμ„œ 및 세기에 따라 μ‚¬μš©μžμ˜ 보행 μžμ„Έλ₯Ό 뢄석 μ²˜λ¦¬ν•˜λŠ” 것을 νŠΉμ§•μœΌλ‘œ ν•˜λŠ”, FPCB 기반의 μ••λ ₯ μ„Όμ„œλ₯Ό μ΄μš©ν•œ μžμ„Έ μ œμ–΄ 및 ꡐ정 κ΄€ν•œ IoT μ‹œμŠ€ν…œ.Through the execution of the posture correcting app 150, the user's walking speed according to the frequency of receiving the pressure data value is analyzed and processed, and the user is pressed according to the position, order and intensity of the foot pressed by the pressure data value. IoT system for posture control and correction using an FPCB-based pressure sensor, characterized in that the analysis of the walking posture of the process.
PCT/KR2017/009315 2016-12-07 2017-08-25 Iot system for posture control and correction using fpcb-based pressure sensor Ceased WO2018105855A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
KR1020160165626A KR20180065161A (en) 2016-12-07 2016-12-07 A IoT SYSTEM FOR ATTITUDE CONTROL AND CALIBRATION USING FPCB BASED PRESSURE SENSOR
KR10-2016-0165626 2016-12-07

Publications (1)

Publication Number Publication Date
WO2018105855A1 true WO2018105855A1 (en) 2018-06-14

Family

ID=62492274

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/KR2017/009315 Ceased WO2018105855A1 (en) 2016-12-07 2017-08-25 Iot system for posture control and correction using fpcb-based pressure sensor

Country Status (2)

Country Link
KR (1) KR20180065161A (en)
WO (1) WO2018105855A1 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR102139474B1 (en) 2018-11-19 2020-07-30 μ£Όμ‹νšŒμ‚¬ λ©”ν…” Pressure measuring apparatus using fabric sensor and device management system based on internet of things using thereof
GB2618269A (en) * 2021-02-26 2023-11-01 Laaf Inc Data-analyzing smart insole apparatus and method

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20100122617A (en) * 2009-05-13 2010-11-23 신동석 Apparatus for body weight scale of shoe type
KR20110124964A (en) * 2010-05-12 2011-11-18 μ΄μ§„μš± Shoe insole for gait diagnosis
KR101119904B1 (en) * 2010-11-02 2012-02-29 μ΄μ§„μš± Insole sheet for walk diagnosis, shoes system for walk diagnosis using thereof, and diagnosis service system for walk posture
KR20150088072A (en) * 2014-01-23 2015-07-31 λ™μ„œλŒ€ν•™κ΅μ‚°ν•™ν˜‘λ ₯단 System for providing smart shoes service with posture correction function, and posture correction method using the same
KR20160042262A (en) * 2014-10-07 2016-04-19 μ£Όμ‹νšŒμ‚¬ λΌμ΄ν”„μ‚¬μ΄μ–ΈμŠ€ν…Œν¬λ†€λ‘œμ§€ Method for Information Service of Pitting Insole using analysis of walking pattern

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20100122617A (en) * 2009-05-13 2010-11-23 신동석 Apparatus for body weight scale of shoe type
KR20110124964A (en) * 2010-05-12 2011-11-18 μ΄μ§„μš± Shoe insole for gait diagnosis
KR101119904B1 (en) * 2010-11-02 2012-02-29 μ΄μ§„μš± Insole sheet for walk diagnosis, shoes system for walk diagnosis using thereof, and diagnosis service system for walk posture
KR20150088072A (en) * 2014-01-23 2015-07-31 λ™μ„œλŒ€ν•™κ΅μ‚°ν•™ν˜‘λ ₯단 System for providing smart shoes service with posture correction function, and posture correction method using the same
KR20160042262A (en) * 2014-10-07 2016-04-19 μ£Όμ‹νšŒμ‚¬ λΌμ΄ν”„μ‚¬μ΄μ–ΈμŠ€ν…Œν¬λ†€λ‘œμ§€ Method for Information Service of Pitting Insole using analysis of walking pattern

Also Published As

Publication number Publication date
KR20180065161A (en) 2018-06-18

Similar Documents

Publication Publication Date Title
WO2014081154A1 (en) Shoe insole, shoes including same, and gait correction system
US10105098B2 (en) Garment integrated sensing system and method
WO2019156493A1 (en) Electronic device including detachable measurement module and attachment pad
WO2016021839A1 (en) Wearable device and control method therefor
WO2009123396A2 (en) Training apparatus and method based on motion content
WO2012060578A9 (en) Outsole sheet for gait diagnosis, and footwear system for gait diagnosis and service system for gait posture diagnosis using same
WO2011159038A2 (en) Functional abdominal belt
WO2020091294A1 (en) Patch-type thermometer and system therefor
WO2018012770A1 (en) Exercise management method and system using electromyography sensor
WO2015076462A1 (en) Method and apparatus for measuring bio signal
WO2019199002A1 (en) Electrocardiograph module device
WO2019212192A1 (en) Electronic device for detecting biometric information
WO2022114293A1 (en) Smart-clothes-coupling-type biosignal measurement system
WO2018105855A1 (en) Iot system for posture control and correction using fpcb-based pressure sensor
WO2022203190A1 (en) Electronic device for providing exercise program using medical data and method therefor
WO2021096216A1 (en) Wearable device and method for providing information of user
WO2022114397A1 (en) Led light patch, skin care diagnostic system using same, and method for operating same
WO2021162523A1 (en) Electronic device and method for providing body component information by using same
WO2022211248A1 (en) Method for providing health management service, and electronic device supporting same
WO2022139221A1 (en) Electrostimulation device couplable to plurality of band devices and operation method thereof
CN115691754A (en) Exercise guidance method and related device
WO2018044059A1 (en) Fitness monitoring system.
WO2024181640A1 (en) Healthcare system and method for walking assistance
WO2024101757A1 (en) Ring-shaped biosignal measurement device and manufacturing method therefor
WO2020040328A1 (en) Detachable wearable device comprising flexible patch

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 17878765

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 17878765

Country of ref document: EP

Kind code of ref document: A1